CN209647960U - The installation auxiliary system of hollow sphere - Google Patents
The installation auxiliary system of hollow sphere Download PDFInfo
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- CN209647960U CN209647960U CN201822275584.XU CN201822275584U CN209647960U CN 209647960 U CN209647960 U CN 209647960U CN 201822275584 U CN201822275584 U CN 201822275584U CN 209647960 U CN209647960 U CN 209647960U
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- hollow
- hollow hemisphere
- hemisphere
- gooseneck
- stiffener
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Abstract
The utility model relates to building fields, provide a kind of installation auxiliary system of hollow hemisphere.The installation auxiliary system, which is set to be installed on along the hollow sphere center, to be placed on the hollow sphere of two identical hollow hemispheres;The installation auxiliary system includes: the gooseneck for being placed in the middle part of the hollow sphere, wherein the gooseneck includes transverse stiffener and longitudinal stiffener;Longitudinally disposed several locating rods and several support rods being laterally arranged, the locating rod be set to the hollow hemisphere top inner wall and bottom interior wall and correspond to the transverse stiffener, the support rod be set to the side wall of the hollow hemisphere and correspond to the longitudinal stiffener.Installation auxiliary system provided by the utility model is formed with less component stablizes fixed connection structure, avoids using sphere or bent frame, to improve the stability of structure.
Description
Technical field
The utility model relates to the installation auxiliary systems of building field more particularly to a kind of hollow hemisphere.
Background technique
In building field, relate to the design of sphere, but for the ease of to sphere installation, it will usually by ball design at
Hollow form.
Currently, hollow-sphere structures are that sphere is separated the direct location and installation of several arc-shaped workpieces in the frame of spheric profile
On.But such mounting structure is more demanding to the matching degree of the arc-shaped workpiece and the frame, increases the difficulty of processing of the two
In addition, also installation process is put forward higher requirements.
Utility model content
The purpose of the utility model is to provide a kind of stabilization fixed connection structures of hollow sphere, to reduce installation structure
Part.
To achieve the goals above, the utility model the following technical schemes are provided:
The utility model provides a kind of installation auxiliary system of hollow sphere,
The installation auxiliary system be set to be installed on along the hollow sphere center be placed in two it is identical hollow
On the hollow sphere of hemisphere;
The installation auxiliary system includes:
It is placed in the gooseneck at the middle part of the hollow sphere, wherein the gooseneck includes that transverse stiffener and longitudinal direction add
Strength rib;
Longitudinally disposed several locating rods and several support rods being laterally arranged, the locating rod are set to described hollow half
The top inner wall and bottom interior wall of ball and correspond to the transverse stiffener, the support rod is set to the side of the hollow hemisphere
Wall and correspond to the longitudinal stiffener.
The locating rod is uniformly distributed in the top inner wall and bottom of the hollow hemisphere in one of the embodiments,
Wall, and vertical with the transverse stiffener of the gooseneck connect.
The support rod first support bar and hound in one of the embodiments,;
The first support bar is uniformly distributed in the upper half and lower half of the hollow hemisphere, and puts more energy into the longitudinal direction
Rib vertically connects;
The hound is located between two first support bars of the up/down hemisphere of same azimuthal plane, and the diagonal brace
Bar intersects with the extended line of described two first support bars.
The installation auxiliary system in one of the embodiments, further include: adjusting mechanism;
The adjusting mechanism is correspondingly arranged with the reverse drawing otic placode on the gooseneck;
The adjusting mechanism is connected with reverse drawing otic placode corresponding on the transverse stiffener or longitudinal stiffener, for laterally
Precisely positioning or longitudinal precisely positioning.
The installation auxiliary system in one of the embodiments, further include:
Hanging for hollow hemisphere positioning is respectively arranged in the upper, middle and lower for being respectively arranged at the hollow hemisphere shell
Point;
Two suspension centres are included at least in the Same Latitude plane of the hollow hemisphere shell, and described in adjacent two
Suspension centre is formed by angular range between 30 to 45 degree with the vertical join line of the central axis of the hollow sphere respectively.
Compared with prior art, the embodiment of the utility model has the advantage that
The installation auxiliary system of a kind of hollow sphere provided by the utility model, including being arranged in two described in double
Several locating rods, support rod and the adjusting mechanism of gooseneck, the connection gooseneck in hollow hemisphere, and be arranged described
The suspension centre of hollow hemisphere shell, with by being lifted respectively to two hollow hemispheres, position alignment, adjustment, installation, it is final complete
At the installation of entire hollow sphere.The system simplifies installation steps, further decreases installation difficulty, mention to reduce installing component
High installation effectiveness.
The additional aspect of the utility model and advantage will be set forth in part in the description, these will be from following description
In become obvious, or recognized by the practice of the utility model.
Detailed description of the invention
The utility model is above-mentioned and/or additional aspect and advantage from the following description of the accompanying drawings of embodiments will
Become obvious and be readily appreciated that, in which:
Fig. 1 is the sectional view of the hollow sphere of one embodiment in the utility model;
Fig. 2 is the hollow hemisphere of one embodiment in the utility model and the positional diagram of gooseneck;
Fig. 3 is the structural schematic diagram on the outside of the hollow hemisphere of one embodiment in the utility model.
Specific embodiment
The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning
Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng
The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and cannot be construed to the utility model
Limitation.
In order to overcome the installation supplementary structure component of hollow sphere in the prior art more, tooling member difficulty is high to be asked
Topic.The utility model provides a kind of installation auxiliary system of hollow sphere.The structure of party's installation auxiliary system can refer to Fig. 1
To Fig. 3.Method includes the following steps:
Referring to figs. 1 to Fig. 3, the utility model also provides a kind of installation auxiliary system of hollow sphere.The hollow sphere
10 are divided into two identical hollow hemispheres 11 along its center.The installation auxiliary system is set on the hollow hemisphere 11.Institute
State installation auxiliary system include be placed in the gooseneck 40 at 10 middle part of the hollow sphere and be fixedly connected on the gooseneck 40 and
Locating rod 20 and support rod 30 between the hollow sphere 10.The gooseneck 40 includes that the gooseneck 40 includes laterally adding
Strength rib 41 and longitudinal stiffener 42, and it is made from it rectangle.
The locating rod 20 is longitudinally disposed, and one end is fixedly connected in top inner wall or the bottom of the hollow hemisphere 11
Wall, the other end are fixedly connected on the top inner wall or the corresponding transverse stiffener 41 of bottom interior wall, to two described hollow half
Ball 11, which plays, positions in a longitudinal direction and is supported in the horizontal steel beam action.
The laterally setting of support rod 30, is centainly fixedly connected on the side wall of the hollow hemisphere 11, and the other end is fixed to be connected
Be connected to the corresponding longitudinal stiffener 42 of the side wall, to described two hollow hemispheres 11 play in a lateral direction positioning and
It is supported in the horizontal steel beam action.
The installation auxiliary system of hollow sphere provided in the utility model passes through the locating rod 20 and support rod 30
Fix the relative position between the hollow sphere 10 and the gooseneck 40 along the longitudinal direction and in transverse direction, and the steel
Crossbeam 40 is fixed on the specified position of the hollow sphere 10, and the locating rod 20, support rod 30 and the gooseneck 40 assist
The hollow sphere 10 is fixed on specified position, is formed with less component and is stablized fixed connection structure, avoided using ball
Body or bent frame, to reduce the stability of structure.
For the locating rod 20, the locating rod 20 can be further defined to and be uniformly distributed in the hollow hemisphere 11
Top inner wall and bottom interior wall, and vertical with the transverse stiffener 41 of the gooseneck 40 connect.
Along longitudinal direction overlooked or looked up of the hollow sphere 10, the locating rod 20 is respectively uniformly distributed in institute
The top inner wall and top inner wall for stating hollow hemisphere 11 are used to support the positioning hollow hemisphere 11 with the gooseneck 40 vertical
To the relative position in direction.Moreover, the locating rod 20 is vertically connected at the transverse stiffener 41, so that with shortest length
Locating rod 20 has the function that support positions the hollow hemisphere 11 and the gooseneck 40.Moreover, further, being located at institute
The distributed quantity with distributing position for stating locating rod 20 set by the top and bottom of hollow hemisphere 11 are identical, therefore, described fixed
Position bar 20 is identical to the active force of the support positioning of the top and bottom of the hollow hemisphere 11, the top of the hollow hemisphere 11
It is identical by the active force of the locating rod 20 with bottom.
For the support rod 30,30 first support bar 31 of support rod and hound 32 can be further defined to;
The first support bar 31 is uniformly distributed in the upper half and lower half of the hollow hemisphere 11, and with the longitudinal direction
Ribbed stiffener 42 vertically connects;The hound 32 be located at the up/down hemisphere of same azimuthal plane two first support bars 31 it
Between, and the hound 32 intersects with the extended line of described two first support bars 31.
Specifically, the support rod 30 is connected to the side wall and gooseneck of the hollow hemisphere 11 approximately along transverse direction
Between 40 longitudinal stiffener 42.
The first support bar 31 is respectively uniformly distributed in the upper half and lower half of the hollow hemisphere 11, described hollow
The upper half and lower half of hemisphere 11 are therefore by from the uniform active force of longitudinal stiffener 42.Further, described first
Support rod 31 is respectively symmetrically, on ensuring in the quantity and position of the upper half of the hollow hemisphere 11 and lower half distribution
The support force of half portion and lower half being subject to is equal.Add moreover, the first support bar 31 is vertically connected at the longitudinal direction
Strength rib 42 reaches the first support bar 31 to the hollow hemisphere 11 and the longitudinal stiffener 42 most with shortest length
Big active force.Further, the first support bar 31 set by all directions side wall positioned at the hollow hemisphere 11 is divided
The quantity of cloth is identical, so that identical to the active force of the support of all directions side wall of the hollow hemisphere 11.
The hound 32 is arranged in the upper half or the lower semisphere of the same azimuthal plane of the hollow hemisphere 11
Position between two first support bars 31, but between the hound 32 and two first support bars 31 is simultaneously non-flat
Row, but certain angle is formed, the hound 32 and the extended line of two first support bars 31 are flat in common longitude
Intersect on face, to enhance the supporting role to the hollow hemisphere 11.
It further include setting in the installation auxiliary system in the structure basis of above-mentioned hollow sphere 10 installation auxiliary system
Adjusting mechanism 50 on the inner wall of hollow sphere 10, to further ensure that the positional relationship between two hollow hemispheres 11
And the positional relationship between the gooseneck 40 respectively.The adjusting mechanism 50 and the reverse drawing otic placode pair on the gooseneck 40
It should be arranged;The adjusting mechanism 50 is connected with reverse drawing otic placode corresponding on the transverse stiffener 41 or longitudinal stiffener 42, is used
In laterally precisely positioning or longitudinal precisely positioning.
Specifically, it is illustrated by taking a hollow hemisphere 11 and the gooseneck 40 as an example.The adjusting mechanism 50 is distinguished
Two transverse stiffeners 41 above and below being arranged in and 42 shape of corresponding longitudinal stiffener of the hollow hemisphere 11
At the angle of intersection at.The adjusting mechanism 50 is connected at the angle of intersection corresponding to the side-walls of the hollow hemisphere 11 and institute
It states on transverse stiffener 41 or longitudinal stiffener 42.In the present embodiment, 3 with reference to shown in figure, the adjusting mechanism 50 is to pull
Cucurbit is the second chain block of the first chain block 51 and lower half that the upper half of the hollow hemisphere 11 is arranged in respectively
52.The hook of first chain block 51 is fixedly connected at the angle of intersection of 11 upper half of hollow hemisphere pair
The side-walls for the hollow hemisphere 11 answered, suspension hook are fixedly connected on the corresponding cross in the upper half positioned at the hollow hemisphere 11
To on ribbed stiffener 41.The position that the suspension hook is fixedly connected is fixed with reverse drawing otic placode, to fix suspension hook and the transverse stiffener
41 positional relationship.
The hook of second chain block 52 is fixedly connected on the intersection positioned at 11 lower half of hollow hemisphere
The side-walls of the corresponding hollow hemisphere 11, suspension hook are fixedly connected on positioned at the lower half pair of the hollow hemisphere 11 at angle
On the longitudinal stiffener 42 answered.
When the locating rod 20 and 30 Primary Location of support rod of the hollow hemisphere 11 are in the transverse stiffener 41 and described
After the installation site of longitudinal stiffener 42, distinguished using the hoisting-chain of first chain block 51 and the second chain block 52 thin
It adjusts the hollow hemisphere 11 and the gooseneck 40 along the relative position between transverse direction and longitudinal direction, completes the two
It is accurately positioned.
Use is respectively arranged in the upper, middle and lower that the installation auxiliary system is respectively arranged at 11 shell of hollow hemisphere
In the suspension centre 60 that hollow hemisphere 11 positions;Two are included at least in the Same Latitude plane of 11 shell of hollow hemisphere to hang
Point 60, and vertical join line of the two adjacent suspension centres 60 respectively with the central axis of the hollow sphere 10 is formed by angle
Range is between 30 to 45 degree.
The suspension centre 60, for lifting the hollow hemisphere 11 to the position of the gooseneck 40.Same hollow half
In ball 11, the suspension centre 60 at least two being each located in three positions, and two suspension centres 60 are located at Same Latitude plane
On.
It is provided with lifting lug on the suspension centre 60, when needing to move at the hollow hemisphere 11 to the gooseneck 40, lifting rope
61, by connecting the lifting lug, draw the hollow hemisphere 11.It is single at least with two lifting ropes 61 during lifting
Lifting rope 61 is connected to the suspension centre 60 of the different location of the hollow hemisphere 11.Further, two lifting ropes 61 are corresponding
The suspension centre 60 of connection is located in the Same Latitude plane of the hollow hemisphere 11, and the suspension centre that 61 both ends of same root lifting rope are connected
60 are located on same azimuthal plane, keep two lifting ropes 61 identical to the active force of the hollow hemisphere 11, it is ensured that described hollow half
Ball 11 can be adjacent to along the parallel direction of horizontal girder steel.Two lifting ropes 61 are symmetrically connected to the both ends of same suspender 62,
Achieve the purpose that more preferably steadily to move the hollow hemisphere 11 by two lifting ropes 61.In the present embodiment, it is located at described
The suspension centre 60 on 11 top of hollow hemisphere and middle part passes through the mobile hollow hemisphere 11 of the connection and promoting or transferring of lifting rope 61.Meanwhile position
Suspension centre 60 in 11 lower part of hollow hemisphere can be realized by other suspenders or lifting rope adjust the hollow hemisphere 11 with it is described
The angle of gooseneck 40 enables the hollow hemisphere 11 to align along the parallel direction of horizontal girder steel.
Adjacent two suspension centre 60 in Same Latitude plane is respectively and in the hollow hemisphere 11
Mandrel be located at vertical join line formed 30-45 degree angular relationship, be uniformly distributed the suspender 62 to the hollow hemisphere 11 outside
Active force on shell, it is too big with the angle of the parallel direction of the gooseneck 40 in lifting to prevent the hollow hemisphere 11, no
Convenient for being installed to the hollow hemisphere 11 to the adjustment of angle with subsequent.
The installation auxiliary system of a kind of hollow sphere provided by the utility model, including being arranged in two described in double
Several locating rods 20, support rod 30 and the adjusting mechanism 50 of gooseneck 40, the connection gooseneck 40 in hollow hemisphere 11, with
And the suspension centre 60 of 11 shell of hollow hemisphere is set, with by being lifted respectively to two hollow hemispheres 11, position pair
Quasi-, adjustment, installation, are finally completed the installation of entire hollow sphere.The system simplifies installation steps to reduce installing component, into
One step reduces installation difficulty, improves installation effectiveness.
The installation method of the installation auxiliary system of corresponding above-mentioned hollow sphere includes:
Step 1: the hollow sphere 10 is divided into two identical hollow hemispheres 11 along its center.
In order to reduce the component installed in the hollow sphere 10, the hollow sphere 10 is separated into two hollow hemispheres 11.
Meanwhile aligning in order to facilitate the installation of, two hollow spheres 10 are split into symmetrical two identical hollow half along its center
Ball 11.
Step 2: the hollow hemisphere 11 is placed on gooseneck 40, wherein the gooseneck 40 includes transverse stiffener 41
With longitudinal stiffener 42.
The middle part of the hollow sphere 10 is provided with the gooseneck 40 for being used to support the hollow sphere 10.It, will in the step
Two hollow hemispheres 11 are fixed on the gooseneck 40.Specifically, the gooseneck 40 is in rectangle comprising is laterally added
Strength rib 41 and longitudinal stiffener 42, the hollow hemisphere 11 by its inside structure respectively with the transverse stiffener 41 and longitudinal
Ribbed stiffener 42 is fixedly connected, to realize the preliminary installation of the hollow hemisphere 11.
Step 3: the locating rod 20 of the hollow hemisphere 11 is fixedly connected on the transverse stiffener 41, and it is described in
The support rod 30 of empty hemisphere 11 is fixedly connected on the longitudinal stiffener 42, wherein the locating rod 20 is located at described hollow half
It the top inner wall and bottom interior wall of ball 11 and is correspondingly arranged with the transverse stiffener 41, the support rod 30 is located at described hollow
It the side wall of hemisphere 11 and is correspondingly arranged with the longitudinal stiffener 42.
In the present embodiment, the corresponding transverse stiffener 41, top inner wall and bottom positioned at the hollow hemisphere 11
Several locating rods 20 are arranged in inner wall.The locating rod 20 be fixedly connected on the hollow hemisphere 11 and the transverse stiffener 41 it
Between, with the fixation hollow hemisphere 11 and the relative position of the gooseneck 40 along the longitudinal direction.
Several support rods 30 are arranged in the corresponding longitudinal stiffener 42, the side wall positioned at the hollow hemisphere 11.The branch
Strut 30 is fixedly connected between the hollow hemisphere 11 and the longitudinal stiffener 42, with the fixation hollow hemisphere 11 and institute
State the relative position of gooseneck 40 in transverse direction.
Institute is fixedly connected on respectively along transverse direction and longitudinal direction by the locating rod 20 and the support rod 30
State between hollow hemisphere 11 and the gooseneck 40, make the hollow hemisphere 11 and the gooseneck 40 respectively in transverse direction and
Longitudinal direction forms a fixed connection relationship.
Step 4: the fixation with the gooseneck 40 is completed to two hollow hemispheres 11, it will be described hollow to two
The corresponding outer rim of hemisphere 11 is welded.
It is fixedly connected with the hollow hemisphere 11 with the gooseneck 40 by step 3, then by the locating rod 20
Both ends are fixedly connected with the connector of the top inner wall of the hollow hemisphere 11 or bottom interior wall respectively, and with the lateral stiffening
The connector of rib 41 is fixedly connected;By the fixed company of the connector of the both ends of the support rod 30 and the side wall of the hollow hemisphere 11
It connects, and is fixedly connected with the connector of the longitudinal stiffener 42.
The installation method is assembled with less subassembly, reduces its difficulty of processing, while decreasing the process of installation,
To simplify the process of installation.The gooseneck 40 of the hollow sphere 10 and rectangle on its inside is along horizontal and vertical two
A direction is fixedly connected relationship, forms stabilization and is fixedly connected with relationship, avoids using sphere or bent frame, to reduce peace
The difficulty of positioning is harmonized when dress.
For step 3, the scheme that further limits are as follows: the locating rod 20 is uniformly distributed in the hollow hemisphere 11
Top inner wall and bottom interior wall, and be vertically connected at the transverse stiffener 41.
Along longitudinal direction overlooked or looked up of the hollow sphere 10, the locating rod 20 is respectively uniformly distributed
The top inner wall and top inner wall of the hollow hemisphere 11 position the hollow hemisphere 11 with the gooseneck 40 vertical with support
To the relative position in direction.Moreover, the locating rod 20 is vertically connected at the transverse stiffener 41, so that with shortest length
Locating rod 20, have the function that support positions the hollow hemisphere 11 and the gooseneck 40.Moreover, in order to described hollow
The active force of the support positioning of the top and bottom of hemisphere 11 is identical, makes the top and bottom stress phase of the hollow hemisphere 11
Together, the distributed quantity for being located at locating rod 20 set by the top and bottom of the hollow hemisphere 11 is identical with distributing position.
On the basis of step 3 and/or the above-mentioned method about further setting locating rod 20, to the setting support
The method of bar 30 further defines that the support rod 30 includes first support bar 31 and hound 32;Described first is supported
Bar 31 is uniformly distributed in the upper half and lower half of the hollow hemisphere 11, and is vertically connected at the longitudinal stiffener 42;It will
The hound 32 is arranged between two first support bars 31 of the up/down half portion of same azimuthal plane, and is made described
Hound 32 intersects with the extended line of described two first support bars 31.
The support rod 30 is connected to the side wall of the hollow hemisphere 11 and indulging for gooseneck 40 approximately along transverse direction
To between ribbed stiffener 42.The support rod 30 includes perpendicular to the first support bar 31 of the longitudinal stiffener 42 and with described
The hound 32 of the extended line intersection of one support rod 31.
Wherein, the first support bar 31 is respectively uniformly distributed in the upper half and lower half of the hollow hemisphere 11,
Make the hollow hemisphere 11 the upper half and lower half by from the uniform active force of longitudinal stiffener 42.Further,
The quantity and position that the first support bar 31 is distributed in the upper half of the hollow hemisphere 11 and lower half respectively be it is symmetrical,
To ensure that the stress of the upper half and lower half is uniform.Add moreover, the first support bar 31 is vertically connected at the longitudinal direction
Strength rib 42 reaches the first support bar 31 to the hollow hemisphere 11 and the longitudinal stiffener 42 most with shortest length
Big active force.Further, in order to which the active force of the support of all directions side wall to the hollow hemisphere 11 is identical, will be located at
The quantity that the first support bar 31 is distributed set by all directions side wall of the hollow hemisphere 11 is identical.
The hound 32 is arranged in the upper half or the lower semisphere of the same azimuthal plane of the hollow hemisphere 11
Two first support bars 31 between, but position between the hound 32 and two first support bars 31 and non-flat
Row, but certain angle is formed, intersect respective extended line on common azimuthal plane, with enhancing to described hollow half
The supporting role of ball 11.
In order to ensure the positional relationship between the two hollow hemispheres 11 and respectively position between the gooseneck 40
Set relationship, further include step 150 before step 140: by the transverse stiffener 41 of adjusting mechanism 50 and the gooseneck 40 or
Corresponding reverse drawing otic placode connection on longitudinal stiffener 42 carries out laterally precisely positioning or longitudinal precisely positioning.Wherein, the adjustment
Device 50 is for adjusting 11 position of hollow hemisphere, between the hollow hemisphere 11 and the gooseneck 40.It is located at
Reverse drawing otic placode corresponding with the adjusting mechanism 50 is set on the gooseneck 40.
It is illustrated by taking a hollow hemisphere 11 and the gooseneck 40 as an example.The adjusting mechanism 50 is respectively set in place
In the intersection that two upper and lower transverse stiffeners 41 are formed with the corresponding longitudinal stiffener 42 of the hollow hemisphere 11
At angle.The adjusting mechanism 50 is connected at the angle of intersection to be added corresponding to the side-walls of the hollow hemisphere 11 and the transverse direction
On strength rib 41 or longitudinal stiffener 42.In the present embodiment, 3 with reference to shown in figure, the adjusting mechanism 50 is chain block, respectively
It is the second chain block 52 of the first chain block 51 and lower half that the upper half of the hollow hemisphere 11 is set.Described
The hook of one chain block 51 is fixedly connected on corresponding described at the angle of intersection of 11 upper half of hollow hemisphere
The side-walls of hollow hemisphere 11, suspension hook are fixedly connected on the corresponding transverse stiffener in the upper half positioned at the hollow hemisphere 11
On 41.The position that the suspension hook is fixedly connected is fixed with reverse drawing otic placode, to fix the position of suspension hook Yu the transverse stiffener 41
Relationship.
The hook of second chain block 52 is fixedly connected on the intersection positioned at 11 lower half of hollow hemisphere
The side-walls of the corresponding hollow hemisphere 11, suspension hook are fixedly connected on positioned at the lower half pair of the hollow hemisphere 11 at angle
On the longitudinal stiffener 42 answered.
When the locating rod 20 and 30 Primary Location of support rod of the hollow hemisphere 11 are in the transverse stiffener 41 and described
After the installation site of longitudinal stiffener 42, distinguished using the hoisting-chain of first chain block 51 and the second chain block 52 thin
It adjusts the hollow hemisphere 11 and the gooseneck 40 along the relative position between transverse direction and longitudinal direction, completes the two
It is accurately positioned.Before step 130, comprising: in the upper, middle and lower of 11 shell of hollow hemisphere, suspension centre 60 is set,
The relative position between the hollow hemisphere 11 and the gooseneck 40 is directed at using the suspension centre 60;Wherein, described hollow
Two suspension centres 60 are at least set in the Same Latitude plane of 11 shell of hemisphere, and two adjacent suspension centres 60 respectively with it is described
The vertical join line of the central axis of hollow sphere 10 is formed by angular range between 30 to 45 degree.
This step is the corresponding corresponding peace of the gooseneck 40 of locating rod 20 and support rod 30 in the hollow hemisphere 11
Before holding position, suspension centre 60 is set in 11 shell of hollow hemisphere, for lifting the hollow hemisphere 11 to the gooseneck 40
Position.The suspension centre 60 is separately positioned on the upper, middle and lower of shell.Wherein, in same hollow hemisphere 11, respectively
Suspension centre 60 at least two in three positions, and two suspension centres 60 are located in Same Latitude plane.
When needing to move at the hollow hemisphere 11 to the gooseneck 40, using at least two lifting ropes 61, pass through connection
The lifting lug being arranged on the suspension centre 60 draws the hollow hemisphere 11.In order to enable the hollow hemisphere 11 along horizontal girder steel
Parallel direction is adjacent to, and during lifting, the difference of the hollow hemisphere 11 is connected to using two lifting ropes 61
The suspension centre 60 of position.In order to keep two lifting ropes 61 identical to the active force of the hollow hemisphere 11, it is ensured that the hollow hemisphere 11
It can be adjacent to along the parallel direction of horizontal girder steel, the suspension centre 60 that two lifting ropes 61 are correspondingly connected with is located at the hollow hemisphere
In 11 Same Latitude plane, and the suspension centre 60 that 61 both ends of same root lifting rope are connected is located on same azimuthal plane.In order to more
Two lifting ropes 61 are manipulated well, and two lifting ropes 61 are symmetrically connected to the both ends of same suspender 62.In the present embodiment,
61 both ends connection position of lifting rope for the mobile hollow hemisphere 11 of the promoting or transferring suspension centre 60 with middle part to its upper.When described hollow
Hemisphere 11 is moved at the gooseneck 40, can use other suspenders or lifting rope, and control connection is located at described hollow half
The suspension centre 60 of 11 lower part of ball enables the hollow hemisphere 11 to adjust the angle of the hollow hemisphere 11 and the gooseneck 40
It is aligned along the parallel direction of horizontal girder steel.
Adjacent two suspension centre 60 in Same Latitude plane is respectively and in the hollow hemisphere 11
Mandrel be located at vertical join line formed 30-45 degree angular relationship, be uniformly distributed the suspender 62 to the hollow hemisphere 11 outside
Active force on shell, it is too big with the angle of the parallel direction of the gooseneck 40 in lifting to prevent the hollow hemisphere 11, no
Convenient for being installed to the hollow hemisphere 11 to the adjustment of angle with subsequent.
The installation method by the way that the hollow sphere 10 is divided into two identical hollow hemispheres 11, and is set on the inside of it
Set the gooseneck 40 for fixing 11 position of hollow hemisphere.The hollow hemisphere 11 is by being arranged support rod in transverse direction
30 and locating rod 20 is set in longitudinal direction, it is fixed with the longitudinal stiffener 42 of the gooseneck 40 and transverse stiffener 41 respectively
Connection.Before being fixedly connected, closed by the position between hollow hemisphere 11 described in 50 fine tuning of adjusting mechanism and the horizontal girder steel
System, to realize the effect of finely positioning.Before installing the hollow hemisphere 11 and the gooseneck 40, respectively described hollow
Suspension centre 60 is arranged in the upper, middle and lower of hemisphere 11, and be located at adjacent two suspension centre 60 at same position with it is described hollow
The vertical join line of the central axis of hemisphere 11 forms the angle of certain angle, guarantees that suspender 62 is equal to 11 active force of hollow hemisphere
It is even to be distributed in shell, to reduce the subsequent difficulty to the hollow hemisphere 11 to the adjustment installation of angle.
The above is only some embodiments of the utility model, it is noted that for the common skill of the art
For art personnel, without departing from the principle of this utility model, several improvements and modifications can also be made, these improve and
Retouching also should be regarded as the protection scope of the utility model.
Claims (5)
1. a kind of installation auxiliary system of hollow sphere, it is characterised in that:
The installation auxiliary system, which is set to, is installed on the two identical hollow hemispheres that are placed in along the hollow sphere center
Hollow sphere on;
The installation auxiliary system includes:
It is placed in the gooseneck at the middle part of the hollow sphere, wherein the gooseneck includes transverse stiffener and longitudinal stiffener;
Longitudinally disposed several locating rods and several support rods being laterally arranged, the locating rod are set to the hollow hemisphere
Top inner wall and bottom interior wall and correspond to the transverse stiffener, the support rod be set to the side wall of the hollow hemisphere and
Corresponding to the longitudinal stiffener.
2. system according to claim 1, which is characterized in that the locating rod is uniformly distributed in the top of the hollow hemisphere
Portion's inner wall and bottom interior wall, and vertical with the transverse stiffener of the gooseneck connect.
3. system described in -2 one of them according to claim 1, which is characterized in that the support rod first support bar and diagonal brace
Bar;
The first support bar is uniformly distributed in the upper half and lower half of the hollow hemisphere, and hangs down with the longitudinal stiffener
It is direct-connected to connect;
The hound is located between two first support bars of the up/down hemisphere of same azimuthal plane, and the hound with
The extended line of described two first support bars intersects.
4. system according to claim 1, which is characterized in that further include: adjusting mechanism;
The adjusting mechanism is correspondingly arranged with the reverse drawing otic placode on the gooseneck;
The adjusting mechanism is connected with reverse drawing otic placode corresponding on the transverse stiffener or longitudinal stiffener, for laterally accurate
Positioning or longitudinal precisely positioning.
5. system according to claim 1, which is characterized in that further include:
The suspension centre positioned for hollow hemisphere is respectively arranged in the upper, middle and lower for being respectively arranged at the hollow hemisphere shell;
Two suspension centres, and two adjacent suspension centres are included at least in the Same Latitude plane of the hollow hemisphere shell
Angular range is formed by with the vertical join line of the central axis of the hollow sphere respectively between 30 to 45 degree.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201822275584.XU CN209647960U (en) | 2018-12-28 | 2018-12-28 | The installation auxiliary system of hollow sphere |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201822275584.XU CN209647960U (en) | 2018-12-28 | 2018-12-28 | The installation auxiliary system of hollow sphere |
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| CN209647960U true CN209647960U (en) | 2019-11-19 |
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| CN201822275584.XU Active CN209647960U (en) | 2018-12-28 | 2018-12-28 | The installation auxiliary system of hollow sphere |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109551157A (en) * | 2018-12-28 | 2019-04-02 | 中交路桥华南工程有限公司 | The installation method and installation auxiliary system of hollow sphere |
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2018
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN109551157A (en) * | 2018-12-28 | 2019-04-02 | 中交路桥华南工程有限公司 | The installation method and installation auxiliary system of hollow sphere |
| CN109551157B (en) * | 2018-12-28 | 2023-10-20 | 中交路桥华南工程有限公司 | Method for installing hollow sphere and installation auxiliary system |
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